DE3732077A1 - CHECK VALVE, ESPECIALLY FOR COMPRESSED AIR - Google Patents

Abstract

A check valve assembly in which a valve spring is positioned with respect to the valve body in a manner such that the deformation line of such valve spring is one of offset and inclined in relation to the longitudinal axis of the valve body so that one side of such valve body is pressed against a guide provided for such valve body while the inlet valve is in an open position. The valve body of the check valve is prestressed against a valve seat by the valve spring.

Description

The invention relates to a check valve according to the preamble of claim 1.

Such a check valve is general known. It is used to conduct pressure secure against accidental emptying. The Passage of the pressure medium is only in one direction intended. A back flow of the pressure medium is prevented by the check valve that at Decrease in pressure in the feed line ver closes. When there is a pressure increase in the dining area spring gives a setback valve clear the way again, so that a pressure off can be done immediately.

With flowing media, depending on the type of Operating conditions, contamination from the Piping system that will eventually be transported in places of unfavorable flow behavior, e.g. in the labyrinth of a check valve, for deposits and thus to disturbance behavior of moving valve parts being able to lead. This is done in the usual way counteracted that with the corresponding Design of the check valve fit tolerances of bearings and guides of movable valve parts, such as. that of the valve body of the aforementioned Check valve, with as much play as possible be carried out.

With the advantage of a through the aforementioned Ausle reduction of the fit that can be achieved However, susceptibility to failure must be the disadvantage in buying  be taken that through unavoidable eddies lungs of the flowing medium inside the valve labyrinths and through on the valve body acting elasticity of the valve spring, the valve body can be easily vibrated can. The result of this are undesirable Ventilge noise, depending on the vibration frequency, the flow velocity and the Shape of the inside of the case, different pitches can assume different intensity.

The invention is therefore based on the object Check valve of the type mentioned with simple means to improve so that unwanted Valve noise caused by swinging, or vibrate the valve body, while maintaining a large-scale fitting game of the movable Valve parts.

This object is achieved by the in claim 1 specified invention solved. Further training and are advantageous embodiments of the invention specified in the subclaims.

The invention has the advantage that for implementation the invention, compared to the above check valve, no additional interference valve components are required and on elaborate design tools, such as a stream Appropriate training of valve parts and the Housing inside to reduce unwanted Ver swirling of the flowing medium, waived can be.  

Another advantage arises from the fact that the Invention in existing check valves type described above with relatively little Effort can be retrofitted.

The invention is based on an embodiment game, which is shown in the drawing, closer explained.

Show it:

Fig. 1 shows a check valve with a valve spring the force line of action offset from the force acting on the valve body acting point of the resultant force of the pressure medium runs,

Fig. 2 and 3 each show a view of the valve body of the check valve of FIG. 1,

Fig. 4 shows a valve body of the check valve of FIG. 1,

Fig. 5 is a non-return valve according to Fig. 1 with a valve spring the force line of action inclined with respect to the forces acting on the valve body acting point of the animal Kraftresul end of the pressure medium runs,

Fig. 6 shows a valve body of the check valve of FIG. 5,

Fig. 7, 8, 9 a variant of the valve body of the check valve of FIG. 1.

Fig. 1 shows a check valve with one of the feed line associated with the intake duct (1) and an outflow channel (2) which are arranged in a direction indicated in the drawing the valve housing (3). A valve body ( 4 ) with a seal ( 5 ) forms an inlet valve ( 4 , 6 ) with a valve seat ( 6 ) fixed to the housing. The seal ( 5 ) can be assigned to the valve seat ( 6 ) instead of the Darge arrangement on the valve body ( 4 ). It is also possible to provide the valve body ( 4 ) or the valve seat ( 6 ) with a correspondingly shaped sealing surface, so that the seal ( 5 ) can be omitted.

A valve spring ( 7 ) is arranged on the outflow side between the valve body ( 4 ) and a wall of the valve housing ( 3 ) designed as a valve catcher ( 8 ). The valve body ( 4 ) is biased against the valve seat ( 6 ) by the force of the valve feeder ( 7 ) supported on the valve catcher ( 8 ). The valve catcher ( 8 ) has passages ( 9 ) for the flowing medium.

The valve body ( 4 ) has an extension ( 10 ) which is arranged opposite the valve spring ( 7 ) and projects into the inflow channel ( 1 ). The wall of the inflow channel ( 1 ), or a part thereof, serves the valve body ( 4 ) by means of an extension ( 10 ) as a guide surface ( 11 ) in which the valve body ( 4 ) acts in its direction of action when opening and closing the inlet valve ( 4 , 6 ) is led. The extension ( 10 ) is provided with projections ( 12 ), which are expediently designed so that the passage of the inflow channel ( 1 ) is no more restricted than necessary by the given guide means. ( Figs. 1 and 2).

Depending on the operating conditions of the check valve, it is also conceivable to provide the valve body ( 4 ) with wide, opposite projections ( 10 ), which protrude into the outflow channel ( 2 ) and there in connection with the wall of the outflow channel ( 2 ) as additional Would serve to guide the valve body.

The valve body ( 4 ) has a device with which the position of the valve spring ( 7 ) with respect to the valve body ( 4 ) is fixed. This device consists of a support surface ( 14 ) which is assigned to the valve body ( 4 ) and the valve spring ( 7 ) is opposite, and from at least one on the support surface ( 14 ) arranged projection ( 13 ) which projects into the valve spring ( 7 ) .

Instead of the valve body ( 4 ), a valve body ( 21 ) according to FIG. 4 can also be used. The valve body ( 21 ) has a recess ( 20 ) into which the valve spring ( 7 ) projects and the base of which serves as a support surface ( 22 ) for supporting the valve spring ( 7 ).

The projection ( 13 ) or the depression ( 20 ) is arranged eccentrically to the longitudinal axis of the valve body ( 4 ) by a distance ( x ). The valve spring ( 7 ) arranged eccentrically to the longitudinal axis of the valve body ( 4 ) in the same way has the effect that the force line ( 15 ) of the valve spring ( 7 ) is offset by the aforementioned distance ( x ) from that acting on the valve body ( 4 ) Point of attack of the force resultant of the pressure medium runs. ( Figs. 1, 3 and 4).

When the inlet valve ( 4 , 6 ) is opened, the opening pressure of the pressure medium acts on an active surface ( 16 ) of the valve body ( 4 ).

The force action line ( 15 ) of the valve spring ( 7 ), offset by the distance ( x ), counteracts the point of application of the pressure medium of the pressure medium acting on the valve body ( 4 ).

By a by the distance ( x ) to the valve body ( 4 ) engaging torque, the valve body ( 4 ) is pressed against the guide surface ( 11 ) and in this position with the intake valve ( 4 , 6 ) open. This will prevent a possible emergence Natural frequency of the valve body ( 4 ), counteracted due to the causes mentioned above.

In FIG. 5, in contrast to FIG. 1, the valve spring ( 7 ) is arranged on at least one projection ( 23 ) concentrically with the longitudinal axis of the valve body ( 17 ). The valve spring ( 7 ) is supported on a support surface ( 18 ) which is inclined to the longitudinal direction of the valve body ( 17 ), so that the force line ( 19 ) inclines to the force resultant of the pressure means.

When opening the inlet valve ( 17 , 6 ) by a force component acting in the direction of the guide surface ( 11 ) of the force line ( 19 ) and the valve body ( 17 ) acting on the opening pressure of the valve body ( 17 ) on one side of the guide surface ( 11 ) pressed.

When the pressure is removed, only the force of the valve spring ( 7 ) acts on the valve body ( 4 , 17 , 21 ), so that the effective contact pressure between the valve body ( 4 , 17 , 21 ) and the guide surface ( 11 ) is reduced and the Valve body ( 4 , 17 , 21 ) can be moved by the valve spring ( 7 ) in the closed position of the inlet valve ( 4 , 6 ; 17 , 6 ; 21 , 6 ).

Fig. 6 shows a valve body ( 29 ) with a recess ( 30 ) for fixing the position of the valve spring ( 7 ). The recess ( 30 ) has a support surface ( 31 ) which is inclined to the longitudinal direction of the valve body ( 29 ). The valve body ( 29 ) can be used in place of the valve body ( 17 ) ( Fig. 5) with the same effect.

FIGS. 7, 8 and 9 show a valve body (24) having an active surface (25) of the pressure means is arranged eccentric to the attack point of the force acting on the valve body (24) resultant force. The valve body ( 24 ) has in the area of the extreme end of its extension ( 10 ) a surface ( 26 ) facing the pressure medium, which with respect to the active surface ( 25 ) is eccentric in the same direction as the point of action of the resultant force acting on the valve body ( 24 ) of the pressure medium is arranged. Guide means in the form of at least one projection ( 27 ) or recess ( 28 ) are provided, through which the spring ( 7 ) is arranged with respect to the valve body ( 24 ) in such a way that, when the inlet valve ( 24 , 6 ) is in the open position, its line of action increases the point of application of the force resulting from the pressure medium is inclined.

In the open position of the inlet valve ( 24 , 6 ) by the force resultant of the pressure medium means inclined force line of action of the valve spring ( 7 ) of the valve body ( 24 ) is adapted to the guide surface ( 11 ) and held in this position.

Claims (8)

1. Check valve, especially for compressed air, with the following features:

• a) an inlet valve formed by a valve seat and a valve body is provided,
• b) there are guide means for guiding the valve body or an extension located on the valve body;
• c) there is provided a valve spring acting on the valve body, through which the valve body is biased against the valve seat;

characterized by the following features:

• d) The valve spring ( 7 ) is arranged with respect to the valve body ( 4 , 17 , 21 , 24 , 29 ) so that the point of application of its line of action on the valve body ( 4 , 17 , 21 , 24 , 29 ) to the point of application of the valve body ( 4 , 17 , 21 , 24 , 29 ) acting force resultants of the pressure medium is offset or that their force action line is inclined to the force action line of the force resultants mentioned;
• e) the guide means are arranged and designed such that the valve body ( 4 , 17 , 21 , 24 , 29 ) or the extension ( 10 ) in the open position of the inlet valve ( 4 , 6 ; 17 , 6 ; 21 , 6 ; 24 , 6 ; 29 , 6 ) on the guide means, whereby the contact force that occurs is greater than in the closed position of the inlet valve ( 4 , 6 ; 17 , 6 ; 21 , 6 ; 24 , 6 ; 29 , 6 ).

2. Check valve according to claim 1, characterized by the following features:

• a) In order to fix the position of the valve spring ( 7 ) with respect to the valve body ( 4 ), this has a support surface ( 14 ) assigned to the valve spring ( 7 ) and at least one projection ( 13 ) arranged on the support surface ( 14 ), which protrudes into the valve spring ( 7 ) protrudes;
• b) the projection ( 13 ) is arranged eccentrically to the on the valve body ( 4 ) acting on the grip point of the force resultant of the pressure medium.

3. Check valve according to claim 1, characterized by the following features:

• a) In order to fix the position of the valve spring ( 7 ) with respect to the valve body ( 21 ), the latter has at its end facing the valve spring ( 7 ) a recess ( 20 ) or fixing elements into which the valve spring ( 7 ) projects and the bottom of which is supported by a support surface ( 22 ) is formed;
• b) the recess ( 20 ) or the fixing means are arranged eccentrically to the point of action of the force resultant of the pressure medium acting on the valve body by ( 21 ).

4. Check valve according to claim 1, marked is characterized by the following feature: To fix the position of the valve spring ( 7 ) with respect to the valve body ( 17 ), the latter has a support surface ( 18 ) facing the valve spring ( 7 ) and inclined to the longitudinal direction of the valve body ( 17 ) and at least one on the support surface ( 18 ) concentric to it the valve body ( 17 ) acting on the force resultant of the pressure medium angeord Neten projection ( 23 ) which protrudes into the valve spring ( 7 ). 5. Check valve according to claim 1, characterized by the following features:

• a) In order to fix the position of the valve spring ( 7 ) with respect to the valve body ( 29 ), the latter has at its end facing the valve spring ( 7 ) a recess ( 30 ) into which the valve spring ( 7 ) projects;
• b) the recess ( 30 ) has a support surface ( 31 ) which is inclined to the longitudinal direction of the valve body ( 29 );
• c) the recess ( 30 ) is arranged centrally to the point of application of the force resultant of the pressure medium acting on the valve body ( 29 ).

6. Check valve according to claim 1, characterized by the following features:

• a) The valve body ( 24 ) has an active surface ( 25 ) on the point of application of the force acting on the valve body ( 24 ) resultant of the pressure medium is arranged eccentrically;
• b) the valve body ( 24 ) in the area of the extreme end of its extension ( 10 ) has a surface facing the pressure medium ( 26 ), which is eccentric with respect to the active surface ( 25 ) in the same direction to the point of action acting on the valve body ( 24 ) the resultant of pressure is arranged by means of;
• c) the valve body ( 24 ) has guide means ( 27 , 28 ) in the form of at least one pre jump ( 27 ) or a recess ( 28 ) through which the spring ( 7 ) is arranged with respect to the valve body ( 24 ) so that in the open position of the inlet valve ( 24 , 6 ) their line of action is inclined to the grip point of the force resultant of the pressure medium.